RU97111162A - METHOD FOR DETERMINING ELECTRIC CONDUCTIVITY OF SOIL LAYER - Google Patents

Claims (10)

1. The method of determining the electrical conductivity of the soil formation formed by various soil layers, in which the borehole containing the borehole fluid is located in the formation containing lowering into the borehole to the location surrounded by the selected one of the mentioned layers, an induction logging tool containing a source a magnetic field for inducing magnetic fields with different frequencies in the formation, and a magnetic field receiver suitable for receiving response magnetic fields at various distances from the source of the magnetic field and to create a signal characteristic of each response magnetic field; selecting at least two of said various frequencies and selecting at least two of said various distances; for various combinations of each selected frequency and each selected distance, control the source so as to induce a magnetic field of the selected frequency in said soil layers, which induces a corresponding response magnetic field near the tool, and control the receiver at a selected distance from the source to create a signal representing the response magnetic field, characterized in that each signal is given by an equation describing a series expansion in frequencies, including a linear term, to a large extent depending on the conductivity in the vicinity of the borehole, and a nonlinear term that is largely dependent on the conductivity in the adjacent layer (s) and combine the signals in such a way as to exclude said linear term and said nonlinear term from the equations describing series expansion, such thus creating a combined signal having a reduced dependence on the electrical conductivity in the vicinity of the borehole and on the electrical conductivity of the soil layer adjacent to the selected layer.  2. The method according to p. 1, characterized in that the said various combinations of the selected frequency and the selected distance comprise a combination of a first frequency and a first distance, a combination of a second frequency and a first distance, a combination of a first frequency and a second distance, a combination of a second frequency and a second distance.  3. The method according to p. 1 or 2, characterized in that each signal includes a component that is a linear function of the frequency of the response magnetic field and largely depends on the conductivity in the vicinity of the borehole, and a component that is a nonlinear function of the frequency of the response magnetic field and depends to a large extent on the conductivity of said adjacent soil layers, and said linear component is excluded from the combined signal before the non-linear component is excluded from the combined signal.  4. The method according to any one of paragraphs. 1-3, characterized in that the tool contains a first pair of coils and a second pair of coils, each of which contains a source coil and a receiver coil, the first pair having a greater distance between the source coil and the receiver coil than the second pair, the source coils form a source and receiver coils - receiver.  5. The method according to p. 4, characterized in that said coils are installed so that at least one of the source coils and from the receiver coils has a magnetic dipole moment opposite to the magnetic dipole moments of other coils.  6. The method according to p. 4 or 5, characterized in that the pairs of coils have a common midpoint, which is determined for each pair of coils, as a point located on the line connecting the coils of the pair, and at equal distances from the coils of the pair.  7. The method according to any one of paragraphs 4-6, characterized in that each coil is mounted so as to produce a magnetic dipole moment substantially parallel to the direction in which said soil layers propagate.  8. The method according to p. 7, characterized in that said borehole shaft is located substantially vertically and said soil layers extend substantially horizontally, and each coil is mounted so as to have a substantially horizontal magnetic dipole moment.  9. The method according to any one of paragraphs 1-8, characterized in that the frequencies of the magnetic fields to be induced in the formation are selected accordingly in the range of 40-200 Gcc.  10. A system for determining the electrical conductivity of a soil layer adjacent to at least one other layer, in which a borehole containing a borehole fluid is pulled through a soil formation comprising: means for lowering into a borehole to a location surrounded by one from selected soil layers, an induction logging tool containing a magnetic field source suitable for inducing magnetic fields with different frequencies in said soil layers, and a receiver a magnetic field suitable for receiving response magnetic fields at different distances from the source and for generating a signal characteristic of each response magnetic field, means for selecting at least two of the various frequencies and selecting at least two of the various distances, means for various combinations of each selected frequency and each selected distance, means for controlling the source so as to induce a magnetic field of the selected frequency in said soil layers, which there is a corresponding response magnetic field near the tool, and means for controlling the receiver at a selected distance from the source so as to create a signal representing the response magnetic field, characterized in that each signal is determined by an equation describing a series expansion in frequency, including a linear term depending to a large extent on the conductivity in the vicinity of the borehole, and a nonlinear term, which depends largely on the conductivity of the adjacent layer (s), and there is a means for combining signal elimination in such a way as to exclude said linear term and said non-linear term from the equations describing series expansion, thereby creating a combined signal having a reduced dependence on electrical conductivity in the vicinity of the borehole and electrical conductivity of the soil layer adjacent to the selected layer.